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RGO.Revista Gaúcha de Odontologia (Online)

versão On-line ISSN 1981-8637

RGO, Rev. gaúch. odontol. (Online) vol.63 no.4 Porto Alegre Out./Dez. 2015

 

ORIGINAL / ORIGINAL

 

Glycemic control and the production of cytokines in diabetic patients with chronic periodontal disease

 

Controle glicêmico e produção de citocinas em pacientes diabéticos com doença periodontal crônica

 

Mayra Moura FRANCOI; Mariana Mader Miranda MORAESII; Poliana Mendes DUARTEIII; Marcelo Henrique NAPIMOGAIV; Bruno Braga BENATTII

 

I Universidade Federal do Maranhão, Programa de Pós-Graduação em Odontologia
II Universidade Federal do Maranhão, Faculdade de Odontologia. Campus do Bacanga. São Luís, MA, Brasil
III Universidade de Guarulhos, Departamento de Periodontia. Guarulhos, SP, Brasil
IV Instituto e Centro de Pesquisa São Leopoldo Mandic, Laboratório de Imunologia e Biologia Molecular. Campinas, SP, Brasil



Correspondence:

 


ABSTRACT

Objective
To evaluate the association of glycemic control and cytokine production in type 2 diabetic subjects with chronic periodontitis.

Methods
Gingival biopsies were performed in 40 patients, divided into four groups: systemically healthy subjects without periodontal disease (S); systemically healthy patients with chronic periodontitis (P); patients with well-controlled type 2 diabetes mellitus (DM) with chronic periodontitis (C); poorly controlled type 2 diabetes mellitus with chronic periodontitis (D). The production of interleukin (IL) -4, -6, -10, -17 and interferon (IFN) -γ was quantified by ELISA.

Results
The production of IL-4, IL-10, IL-17 and INF-γ was higher on group D when compared to other groups (p <0.05), which in turn were similar (p ≥0.05). In addition, there was no difference in the production of IL-6 in any of the evaluated groups (p≥0.05).

Conclusion
Were observed significantly elevated levels of pro-inflammatory and anti-inflammatory cytokines in patients with poorly controlled type 2 diabetes and chronic periodontitis, demonstrating that glycemic control may be associated to the immune inflammatory response of sites with chronic periodontitis.

Indexing terms: Chronic periodontitis. Cytokines. Diabetes Mellitus. Inflammation.


RESUMO

Objetivo
Avaliar a associação do controle glicêmico e a produção de citocinas em indivíduos diabéticos tipo 2 com doença periodontal crônica.

Métodos
Foram realizadas biópsias gengivais de 40 pacientes, distribuídos nos seguintes grupos: sistemicamente saudáveis sem doença periodontal (S); pacientes sistemicamente saudáveis com periodontite crônica (P); pacientes com diabetes mellitus (DM) tipo 2 controlado com periodontite crônica (C); pacientes com diabetes mellitus tipo 2 não controlado com periodontite crônica (D). Foram quantificadas através de ELISA, a produção das interleucinas (IL) -4, -6, -10, -17 e interferon (IFN) -γ.

Resultados
A produção de IL-4, IL-10, IL-17 e INF-γ foi maior no grupo D quando comparada aos demais grupos (p<0.05), que por sua vez foram similares entre si (p≥0.05). Além disso, não houve diferença na produção de IL-6 em nenhum dos grupos avaliados (p≥0.05).

Conclusão
Foram observados níveis significativamente elevados de citocinas pró-inflamatórias e anti-inflamatórias nos pacientes com diabetes mellitus tipo 2 não controlado e com periodontite crônica, demonstrando que o controle glicêmico pode estar associado com a resposta imunoinflamatória de sítios com periodontite crônica.

Termos de indexação: Periodontite crônica. Citocinas. Diabetes mellitus. Inflamação.

 


INTRODUCTION

Periodontal disease is considered a chronic infectious inflammatory disease characterized by intense leukocyte infiltration in the periodontal tissue resulting in secretion of various cytokines that lead to deleterious inflammatory processes and destruction of the periodontal tissue and alveolar bone1. Despite the fact that the majority of cases are well controlled by conventional periodontal therapy, some cases are still a therapeutic challenge particularly because we do not know how some mild forms of periodontal disease evolve into more severe forms2.

Diabetes Mellitus is a metabolic disease characterized by hyperglycemia due to deficient insulin production type 1 or type 2, that is preceded by systemic inflammation, leading to reduced pancreatic β-cell function, apoptosis and insulin resistence3, the latter being more prevalent in adults. The interrelationship between periodontal disease and diabetes mellitus (DM) has been investigated and studies have shown that the prevalence, progression and severity of periodontal diseases is higher in diabetic individuals than in nondiabetic ones4-6.

The relationship between the mechanism of DM and chronic periodontitis has been described as bidirectional3, in which DM negatively affects the periodontal condition and periodontal disease negatively influencing glycemic control, increasing the risk of complications in diabetic patients7. Other studies have analyzed glycemic control and periodontal disease8-11 and they have found a positive relationship between poorly controlled type 2 DM and the severity of periodontal disease9,12. However, the mechanisms that may lead to more severe periodontitis in individuals with poorly controlled diabetes in comparison with well-controlled diabetes remain unclear7.

Although the initial stages of periodontal disease appear to be associated with bacterial infection, especially to species that adhere and form subgingival biofilm, evidence shows that periodontitis has a multifactorial etiology, which is particularly related to the susceptibility of the host13. Indeed, studies have shown that the correlation between the number of bacteria in the periodontal tissue and the extent of periodontal disease does not occur in all cases14. Moreover, in many cases there seems to be a positive correlation between tissue destruction and recruitment of cells into the periodontium, predominantly lymphocytes, monocytes/macrophages, neutrophils and osteoclasts15. This may indicate that, in addition to the presence of periodontal pathogens, an exacerbated immune response would be contributing to disease progression.

T-helper lymphocytes (Th), which are mediators of the immune response of the organism, may exhibit a Th1 pattern, producing for example, INF-γ and IL-6, which consists predominantly of a cellular immune and pro-inflammatory response, or a Th2 pattern, such as IL-4 and IL-10, with antiinflammatory characteristics and a predominantly humoral immune response. Such polarization is determined by the production of typical cytokines and chemokines, and also specific cell types that determine the course and prognosis of various infectious, inflammatory or autoimmune diseases16.

On the other hand, Th17 cells are a distinct population of lymphocytes that are not related to Th1 and Th2 lymphocytes17. These are powerful pro-inflammatory cells that produce interleukin IL-17 and stimulate fibroblasts, endothelial cells, macrophages and epithelial cells to produce multiple pro-inflammatory mediators, including IL-1, IL-6, tumour necrosis factor (TNF)-α and chemokines, resulting in the induction of inflammation10. High levels of IL-17 have been detected in biopsies of patients with chronic periodontitis18 and the presence of Porphyromonas gingivalis was capable of stimulating T lymphocytes to produce IL-1719. Although the involvement of IL-17 in periodontal disease has been shown18, its role in the induction or progression of this disease is still unclear. Therefore, it is important to understand the immune inflammatory mechanisms that are related to an increased susceptibility to periodontal disease in patients with type 2 diabetes in comparison with individuals without the disease5,20.

Based on the data described above, we hypothesized that the more severe forms of periodontal disease have, at least partially, an exacerbated inflammatory response responsible for the destruction of tooth-supporting tissues and that glycemic control is associated to the inflammatory response at chronic periodontitis sites. Thus, the aim of this study was to assess the influence of glycemic control on the production of cytokines in type 2 diabetic patients with chronic periodontal disease.

 

METHODS

The patients were selected at the Periodontal Clinic of Guarulhos University. The study was approved by the Research Ethics Committee of UFMA (protocol Nº 23115-005265/2010- 89) and all the individuals included in the research received information about the study and signed a term of free and informed consent.

According to the inclusion criteria established, participated in the study subjects from both sexes and more than 30 year of age, dentate or partially edentulous patients (at least 15 natural teeth) with no evidence of systemic modifiers of periodontal disease such as osteoporosis and smoking. Periodontal examination was performed following the parameters: probing depth (PD), clinical attachment level (CAL), bleeding on probing (BoP) and visible plaque index (VPI)21. A single examiner performed all periodontal clinical exams.

Pregnant or lactating, individuals who had taken antibiotics, anti-inflammatory or hormonal therapy, and/or have received periodontal treatment in the last six months prior to surgery were excluded from the sample. In subjects diagnosed with chronic periodontal disease (more than 30% of the sites with PD and CAL ≥ 4 mm and presence of BoP), biopsies were collected from sites with the indication for surgical periodontal therapy (PD ≥ 6mm). In healthy patients (no sites with CAL >3 mm and <20% of sites presenting BoP), the biopsies were collected from sites with no clinical signs of inflammation, indicated for gingivoplasty due to esthetical reasons. In diabetic patients, glycemic control was determined by glycosylated haemoglobin levels (HbA1c), measured by high-performance liquid chromatography, were expressed as a percentage. Subjects who had HbA1c values >8% were assigned to the poorly controlled group, whereas subjects who presented HbA1c levels ≤ 8% were assigned to the wellcontrolled group8,11.

The study included 40 subjects divided in the following groups:

Group S (n=10): Systemically and periodontally healthy subjects with no sites of CAL measurements > 3 mm and < 20% of sites presenting BoP;

Group P (n=10): Subjects were diagnosed with generalized chronic periodontitis, with more than 30% of sites with CAL >4 mm and presence of BoP;

Group C (n=10): well-controlled diabetic subjects, diagnosed with chronic periodontitis, according to the abovedescribed criteria, and HbA1c levels ≤ 8%;

Group D (n=10): poorly controlled diabetic subjects, diagnosed with chronic periodontitis, according to the abovedescribed criteria, and HbA1c levels > 8%.

The biopsies were collected on the most representative area of the inflammatory process and stored in 500 μL of specific buffer for this purpose (protease inhibitor cocktail – SIGMA®). Specimens were macerated (IKA® T10 Basic; Ultra- Turrax®), followed by centrifugation on 4°C, for 10 min and 12000 rpm (Centrifuge 5417®) and the supernatant frozen at -70ºC until the ELISA (Enzyme-Linked Immunosorbent Assay) was performed. Wells were incubated overnight on 4ºC with 100 μL/well of trapping antibodies (eBioscience® - USA) against human cytokines (IL-4, IL-6, IL-10, IL-17 and INF-γ).

The following day, the plates were washed with PBS Tween, blocked with BSA 1% diluted in PBS, to prevent nonspecific bindings and incubated for 2 hours at 37°C. After blocking, rinsed one more time, and the standard curves at various dilutions or samples (in triplicate) were added and incubated at 4°C for 24 h. The plates were washed three times with PBS Tween and the biotinylated polyclonal antibodies against human cytokines were diluted to the proportion that best fit each cytokine and then added to the plates (100 μl/well).

After incubation at room temperature for 1 hour, the plates were washed and 50 μl/well of peroxidade-conjugated streptavidin diluted at 1:5000 was added. Next (fifteen minutes later) 50 μl of the color reagent (o-phenylenediamine- 2HCL; OPD, Sigma USA) was added and plates were kept in the dark at room temperature for 15-20 min. The absorbance was measured at 490 nM.

The analysis of data with normal distribution was achieved using the Analysis of Variance (ANOVA) followed by the Tukey test for the clinical parameters and cytokine levels. The Student t-test was used to compare the glycemic control between well-controlled and poorly controlled diabetic patients. Statistically significant differences were considered when p < 0.05 (*).

 

RESULTS

It is possible to observe in Table 1 that the clinical parameters were lower in healthy subjects (group S) when compared to all the other groups (p <0.05). In addition, poorly controlled diabetic patients showed a higher VPI value when compared to the other groups (p <0.05), and a higher PD value when compared to non-diabetic patients (p <0.05).

 

 

 

The quantitative production of cytokines, additionally demonstrated that the production of IL-4, IL-10, IL-17 and INF-γ was higher in the patients with uncontrolled diabetes in comparison with the other groups (p <0.05), which were in turn similar among them (p≥0.05). In addition, no difference in the production of IL-6 was found in any of the assessed groups (p≥0.05) (Figure 1).

 

 

 

Different letters indicate statistically significant differences amongst experimental groups (ANOVA and Tukey test; p < 0.05). * Statistically significant differences between well-controlled and poorly controlled diabetic subjects (Student t-test; p < 0.05).

 

DISCUSSION

The study assessed the levels of pro- and antiinflammatory cytokines at sites with chronic periodontitis in patients with well-controlled and poorly controlled type 2 diabetes. In general, poorly controlled diabetes mellitus was associated to the production of cytokines, including IL- 17, in sites with chronic periodontal disease. Poor glycemic control has been associated to the severity of periodontal diseases7,9, so it is critical to understand the immune and inflammatory mechanisms that determine the increased susceptibility to periodontitis in patients with diabetes in comparison with individuals without diabetes20.

Some studies suggest that the relationship between pro-and anti-inflammatory mediators in the periodontal tissues of diabetic patients would be more prone to inflammation, which would lead to further destruction of the periodontal tissues11,21. Our study demonstrated in patients with type 2 diabetes mellitus and chronic periodontitis high levels of cytokines of both, Th1 pro-inflammatory cytokines, represented by IL-17 and IFN-γ, and Th2 anti-inflammatory cytokines, which consisted of IL-4 and IL-10. Górska et al.22 reported that cytokines play a crucial role in immune and inflammatory responses and the balance between them can determine the outcome of periodontal infection.

IL-17 is a pro-inflammatory cytokine produced by Th17 cells, which stimulates the production of proinflammatory mediators23. Chronic periodontitis sites have shown increased levels of IL-17 in comparison with healthy periodontal tissues18,23 and periodontal pathogens can stimulate the production of IL-17 from T-cells19. In this study, the concentration of the cytokine IL-17 was higher in patients with poorly controlled diabetes, confirming the findings of Santos et al.11 and Ribeiro et al.20, which may indicate a possible role of Th17 pattern in periodontitis when correlated to DM8. This cytokine is associated with bone loss and with the production of other inflammatory markers such IL-6, increasing the severity of periodontal inflammation. In patients with poorly controlled diabetes, the high levels of IL-17 may be responsible for bone resorption and the destruction of periodontal tissues11,20.

The quantitative expression of IFN-γ, produced by Th1 cells, was higher in the group of patients with poorly controlled diabetes and periodontal disease. IFN-γ induces macrophage activation and the production of inflammatory mediators and it is also able to suppress the activity of Th2 cells22. Therefore, high levels of this cytokine have been related to periodontal disease progression22-23. Controversially, Ribeiro et al.20 and Santos et al.24 also found a higher expression of cytokines in patients with well-controlled diabetes and periodontal disease. According to Duarte et al.25, the levels of IFN-γ are higher in inflamed sites than in non-inflamed sites, irrespective of the systemic condition, and this cytokine, despite having a role in the pathogenesis of periodontal disease, may not be directly involved in the mechanisms of periodontal bone destruction in diabetic patients.

Moreover, there was no statistically significant difference in the quantitative expression of IL-6 among the groups (p≥0.05), a finding that was similar to the one found in the study of Duarte et al.8, in which the expressions of IL-6 and transforming growth factor (TGF)-β did not reach any significant differences among the groups. Duarte et al.25 found higher levels of IL-6 in diabetic patients with chronic periodontitis and suggested that a high level of IL-6 may contribute to periodontal destruction in diabetic patients, which may be relevant for the modulation of periodontal disease in these patients.

In our study, the production of IL-4 and IL-10 was higher in the group of patients with poorly controlled diabetes, which is similar to the findings of Santos et al.11. Duarte et al.8 observed higher frequency of IL-4 in diabetic patients with chronic periodontitis, irrespective if it was well controlled or poorly controlled, when compared with healthy patients. IL-4 and IL-10 are involved with the Th2 anti-inflammatory immune response, which leads to a B-lymphocyte-dependent humoral response22 and is related with a decrease in the activities of cytokines produced by cells of the Th1-pattern22-23. Takahashi et al.23 found a higher concentration of IL-10 in patients with chronic periodontitis when compared with healthy patients, suggesting that this cytokine be elevated in an effort to diminish the severity of inflammation in periodontal disease.

In the present study the pathways by which chronic hyperglycemia interferes in diabetic complications seem to be associated to the fomation of advanced glycation end products (AGE)s and/or the receptors (RAGES) that mediate their biological actions. The glycation process alters the structure of proteins (i.e. Extracellular matrix (ECM) proteins) leading to increased stiffness and resistance to proteolytic digestion. AGEs by accumulating within the various organs blood vessels, promotes several microvascular complications including neuropathies, ocular disease and atherosclerotic diseases26. The relation of hyperglycemia and the periodontal tissues have so far demonstrated conflicting results. In vitro, matrix glycation is able to modulate cell behavior to induce inflammation equivalent to that produced by incubation with P. gingivalis LPS. Such results were confirmed in vivo where AGE deposition and RAGE expression were considerably elevated in the later stages in animals with diabetes even in animals without diabetes but with periodontitis27. In humans, AGEs have been shown to be increasingly expressed in the periodontium of diabetic patients28, and also significantly associated with deterioration of periodontitis, whereas no other serum biochemical marker or bacterial occurrence showed a clear relationship with that condition29. However, other studies in humans have shown no extreme differences in periodontal clinical parameters, according to different glycemic control30. Santos et al.24 observed no relationship between the severity and extension of periodontitis and the glycemic control in subjects well characterized as having advanced generalized chronic periodontitis. Differences in the type of DM, methods of analysis, and diagnosis of periodontal diseases may at least partially explain such controversial results.

Overall, the present study showed that patients with type 2 diabetes mellitus and chronic periodontitis have high levels of cytokines of both patterns Th1 proinflammatory cytokines and Th2 anti-inflammatory cytokines. Górska et al.22 reported that cytokines play a crucial role in immune and inflammatory responses and the balance between them can determine the outcome of periodontal infection. The change in the pattern of inflammatory response can be explained as an attempt by the individual with diabetes and chronic periodontitis to balance or establish a pattern of Th immune response, which is not yet sufficiently clear. Thus, further studies to identify this specific etiology of severe chronic periodontitis in diabetic patients are needed.

 

CONCLUSION

Within the limitations of this study, significant higher levels of pro- and anti-inflammatory cytokines were observed in poorly controlled diabetic subjects with chronic periodontitis, demonstrating that glycemic control may influence the imunne inflammatory response in sites with chronic periodontal disease.

 

Acknowledgments

This study was supported by Maranhão State Research Foundation (FAPEMA, Maranhão, São Luís, Brazil, APP # 1073/2009 and BIC # 03730/10) and CNPq (#303555/2013-0).

 

Collaborators

All authors made substantial contributions to all stages of conception and design of this study.

 

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Correspondence to:
BB BENATTI
e-mail: bbbenatti@gmail.com

 

Received on: 25/3/2015
Final version resubmitted on: 18/5/2015
Approved on: 7/8/2015